KR0133027Y1 - Wind volume control apparatus of indoor unit for airconditioner - Google Patents

Abstract

The present invention relates to a device for controlling the air volume of an indoor unit for an air conditioner that changes the shape of a flow path through which air is discharged, and adjusts the amount of discharge discharged through the discharge port 11 to one side of the drainage plate 9. And a flow path changing device 20 for changing the discharge flow path of the heat-exchanged cold wind discharged by the forced exhaust of the blower fan 13 and guided to one side of the blower fan 13. By making the nose 17 moveable and reducing the flow loss by reducing the gap? Between the blower fan 13 and the guide nose 17 when a high air volume is required, the discharge amount is increased.

Description

Air volume control device of indoor unit for air conditioner

1 is a longitudinal sectional view schematically showing an indoor unit of a conventional air conditioner.

2 is a flow chart showing a state in which air is discharged by a blowing fan of a conventional indoor unit for an air conditioner.

3 is a longitudinal sectional view schematically showing the indoor unit for an air conditioner according to the present invention.

Figure 4 is an air flow diagram showing a state in which the air is discharged by the air volume control device for adjusting the air volume of the indoor unit for an air conditioner according to an embodiment of the present invention.

Figure 5 is a partially enlarged cross-sectional view showing a flow rate adjusting device for adjusting the air flow rate of the indoor unit of the air conditioner according to another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: main body 7: indoor heat exchanger

9: drain plate 11: discharge port

13: blower fan 15: duct member

17: guide nose 20: euro change device

23 solenoid 25 plunger

27: accommodation home 29: reputation

31: drive device

The present invention relates to an air volume control device of an indoor unit for an air conditioner for changing the shape of the flow path through which the air is discharged to adjust the discharge air volume.

The indoor unit of the conventional air conditioner, as shown in FIG. 1, is disposed on the front surface of the main body 1, and has a suction grill member 3 having a plurality of suction ports 3a for suctioning indoor air, and the suction grill member. A filter member 5 disposed on one side of the filter member 3 for filtering foreign substances of indoor air sucked through the suction port 3a of the suction grill member 3, and disposed on a rear side of the filter member 5, An indoor heat exchanger (7) for exchanging the indoor air filtered by the filter member (5) with cold air, and disposed below the indoor heat exchanger (7) so that the indoor air may flow through the indoor heat exchanger (7). A drain plate 9 for collecting a plurality of water droplets generated by cold heat exchange and a drain plate 9 disposed on one side of the drain plate 9 are sucked through the suction port 3a of the suction grill member 3 to heat the indoor heat exchanger. 7) the cold air heat exchanged while passing through the lower portion of the suction grill member (3) Blowing fan 13 for forced exhaust to be discharged through the discharge port 11 formed in the unit, and the air sucked through the suction port 3a of the suction grill member 3 and disposed inside the main body 1 is indoors. After the heat exchange by the heat exchanger (7), the duct member (15) for guiding to be discharged to the discharge port (11), and disposed on one side of the drain plate (9) to form a vortex (V), thereby A guide nose 17 for guiding the cold air heat exchanged by the heat exchanger 7 to the discharge port 11, and air discharged through the discharge port 11 by being disposed at a lower side of the main body 1. The blades stage 19 which adjusts the wind direction in up-down and left-right direction is arrange | positioned.

When the indoor unit for a conventional air conditioner configured as described above selects a predetermined air conditioning condition by an operation unit (not shown) of the air conditioner, a plurality of indoor air is formed on the suction grill member 3 according to the operation of the blower fan 13. The air sucked through the suction port 3a and the air sucked through the suction suction port 3a are filtered by the filter 5, and then heat exchanged with cold air through the indoor heat exchanger 7, and the cold heat exchanger. The cold wind is guided by the duct member 15, the wind direction is adjusted in the vertical direction and the left and right by the blade means 19 is discharged through the discharge port (11).

At this time, the guide nose 17 disposed on one side of the drainage dish 9 by maintaining a predetermined distance (ε) and the blowing fan 13 forms a vortex (V) as shown in FIG. This makes it easy to discharge.

On the other hand, the indoor heat exchanger (7) of the indoor heat exchanger (7) due to the temperature difference between the indoor air sucked through the suction port (3a) of the suction grill member (3) during the heat exchange and the indoor heat exchanger (7) At the same time a large number of water droplets are generated on the surface, foreign matter not filtered by the filter (5) is stuck.

At this time, a plurality of water droplets along with the foreign matter flows downward along the surface of the indoor heat exchanger 7 installed at an inclined angle at a predetermined angle and is collected in the drainage plate 9 and drained through the drain hole 21.

The characteristics of the apparatus of the blower fan 13 are determined according to the formation and position of the guide nose 17, in particular, the size and position of the vortex V determined by the spacing ε of the blower fan 13. It is known that the discharge air volume increases as the interval ε becomes smaller.

However, the conventional air conditioner indoor unit configured as described above can increase the air flow rate by increasing the air flow rate by reducing the gap ε between the blower fan 13 and the furnace nose 17 so as to increase the air flow rate, but the high air flow rate can be obtained. There was a problem in that it is not possible to increase the spacing ε below a certain interval.

Therefore, the present invention has been devised to solve the conventional problems as described above, and an object of the present invention is to move the guide nose according to the needs of the air flow to reduce the interval (ε), turbo that requires a high air volume It is to provide an indoor unit for an air conditioner that can discharge a large amount of air during operation.

In order to achieve the above object, the airflow control device of the indoor unit for an air conditioner according to the present invention includes a blower fan for forced exhaust of the heat exchanged cold air while being guided by a duct member while passing through an indoor heat exchanger, and in the indoor heat exchanger. In the indoor unit for an air conditioner having a drain plate for collecting water droplets formed on the surface of the indoor heat exchanger when the warm air is heat-exchanged with cold air, it is disposed on one side of the drain plate to adjust the discharge amount of the cold air discharged through the discharge port. And a flow path changing device for changing a discharge flow path of cold air forcedly exhausted by the rotation of the blower fan.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 3 to 5.

As shown in FIG. 3, the suction grille member 3 having a plurality of suction ports 3a and disposed on the front surface of the main body 1 and disposed at one side of the suction grille member 3 has a plurality of suction ports 3a to suck the indoor air. A filter member 5 for filtering foreign substances in the indoor air sucked through the suction port 3a of the suction grill member 3 and a rear side of the filter member 5 to remove foreign substances by the filter member 5. An indoor heat exchanger (7) for heat-exchanging the filtered indoor air with cold air, and a plurality of droplets generated when the indoor air is heat-exchanged through the indoor heat exchanger (7), disposed at a lower side of the indoor heat exchanger (7). Cold air heat-exchanged while passing through the indoor heat exchanger 7 through the indoor heat exchanger 7 to be collected and drained through the suction port 3a of the suction grill member 3, which is disposed on one side of the drainage dish 9 and the drainage dish 9. Through the discharge port 11 formed in the lower portion of the suction grill member (3) A blower fan 13 forcibly discharging to be discharged, and air disposed in the main body 1 and sucked through the suction port 3a of the suction grill member 3 are heat-exchanged by the indoor heat exchanger 7 In addition, the duct member 15 for guiding to be discharged to the discharge port 11 and the cold air heat exchanged by the indoor heat exchanger 7 are formed on one side of the drainage plate 9 to form a vortex V. A guide nose 17 for discharging to the discharge port 11 and a drain hole 21 disposed below the drain plate 9 to discharge water collected in the drain plate 9 to the outside of the main body 1. ) And blade means 19 disposed on one side of the lower part of the main body 1 to adjust the air direction of the air discharged through the discharge port 11 in the up, down, left and right directions.

The guide nose 17 is fixed by the plunger 25 so as to reciprocate according to the operation of the solenoid 23 as shown in FIG. 4, and the solenoid 23 is attached to the drainage plate 9. A receiving groove 27 to be accommodated is formed.

Next will be described in detail the operation and effect on the airflow control device of the indoor unit for an air conditioner according to the present invention configured as described above.

First, when predetermined air conditioning conditions are selected on an operation unit (not shown), indoor air is sucked through a plurality of suction ports 3a formed in the suction grill member 3 as the blower fan 13 drives, and the suction port 3a After the foreign matter is filtered by the filter (5), the air sucked through the heat exchanger is heat-exchanged with cold air through the indoor heat exchanger (7), and the cold-heat-exchanged cold air is blown by the rotation of the blower fan (13) Guided by the member 15, the wind direction is adjusted in the vertical and horizontal directions by the blade means 19 is discharged through the discharge port (11).

At this time, the blowing fan 13 and the constant distance (ε) by maintaining a constant discharge guide plate 17 of the drain plate (9) forms a vortex (V) so that the cold air is easily discharged.

On the other hand, the indoor heat exchanger (7) is the indoor heat exchanger (7) due to the temperature difference between the indoor air sucked through the suction port (3a) of the suction grill member 3 and the indoor heat exchanger (7) during the heat exchange At the same time, a plurality of dewdrops are generated, and foreign matters that are not filtered by the filter 5 adhere to each other, and a plurality of droplets together with the foreign matters formed on the surface of the indoor heat exchanger 7 at a predetermined angle. It flows downward along the surface of the inclined indoor heat exchanger 7 and is collected in the drainage plate 9 and drained through the drain hole 21.

The flow path changing device 20 of the indoor unit for the air conditioner operated as described above moves the plunger 25 by operating the solenoid 23 by a control means (not shown) during turbo operation requiring a large amount of air volume. In addition, by reducing the gap ε between the guide nose 17 and the blowing fan 13 so that the vortex V is formed to be small, the flow loss is reduced, thereby increasing the discharge amount.

In the above description, the solenoid 23 is coupled to one side of the guide nose 17 in a manner of increasing the discharge amount to move the guide nose 17 to adjust the air volume, but the present invention is not limited thereto. Or, the airflow control device of the indoor unit for an air conditioner according to another embodiment of the present invention is a flat plate 29 to deform the shape of the duct member 15 on one side of the duct member 15 as shown in FIG. And by disposing the drive device 31 for driving the flat plate 29, it is possible to control the discharge amount of the heat-exchanged air by deforming the duct member 15 at the time of performing the air conditioning function.

As described above, the airflow control device of the indoor unit for the air conditioner according to the present invention enables the guide nose disposed on one side of the blower fan to be moved, thereby reducing the flow loss by reducing the distance (ε) between the blower fan and the guide nose when a high wind volume is required. By reducing, the discharge amount can be increased, and the shape of the duct member can be changed so that the discharge amount of the heat-exchanged air can be adjusted.

Claims (1)

In the indoor unit for an air conditioner including a blower fan installed to suck the indoor air through the heat exchanger to discharge the air through the discharge port after the heat exchange, and a duct member installed to improve the air suction and discharge efficiency by the blower fan, A guide nose which is connected to the solenoid installed in the drainage plate, which is an adjacent portion of the discharge port, and is connected to the solenoid to change the distance between the blower fan while reciprocating, and also change the vortex formed near the discharge port to change the discharge amount. Airflow control device for an indoor unit for an air conditioner, characterized in that it comprises a.